The Coalition Government published its Innovation and Research Strategy for Growth and an associated Economics paper on 8 December 2011. The strategy centres on supporting business R&D in areas in which the UK excels, within the context of developing the wider UK innovation eco-system including universities and other organisations. The Economics paper provides supporting evidence for this policy.
2. Innovation and
Research Strategy for Growth
�
Presented to Parliament
by the Secretary of State for Business, Innovation and Skills
�
by Command of Her Majesty
�
December 2011
�
Cm 8239 £15.50
4. Contents
�
Foreword iv
Executive Summary 1
1 The Innovation and Research Strategy for Growth 5
2 Discovery and Development 16
3 Innovative Businesses 31
4 Knowledge and Innovation 46
5 Global Collaboration 59
6 New Innovation Challenges 73
Conclusions 88
Delivery Plan 91
iii
5. Foreword
�
The UK has a global reputation for Innovation and Research. Our knowledge base, which
includes renowned universities and research institutes, is the most productive among the
G8. We have a proud record of invention – from the creation of life-saving medicines to
the development of the internet.
This Strategy builds on the UK’s recognised strengths, and sets out how we will work
with business and the knowledge base to underpin private sector led growth.
We have already made clear our commitment to the UK knowledge base by maintaining
the annual £4.6 billion budget for science and research programmes, with £150 million
each year supporting university-business interaction which in turn benefits clusters,
through Higher Education Innovation Funding.
The UK’s universities are increasingly collaborating with each other and with external
organisations to develop and commercialise knowledge, last year securing over £3 billion
from external sources. Going further, we intend to maximise the impact of our research
base on economic growth and have committed an additional £495 million to capital
projects in support of this aim since January 2011. Additionally the Research Councils will
develop a web based ‘Gateway to Research’ which will allow ready access to Research
Council funded research information and related data.
We are launching a series of technology and innovation centres under the name Catapult
– facilities which will commercialise innovation and research to be competitive on the
world stage. Three centres – for high value manufacturing, cell therapy and offshore
renewable energy – are confirmed, with three more in the pipeline to be established by
April 2013. Separately, as part of the extra £495 million capital investment, we have
announced dedicated funding for graphene and high-performance computing so the UK
can stay at the forefront of these technologies. We will also extend the success of
London Tech City to other parts of the country through the Launchpad initiative,
encouraging the growth of more innovation clusters.
We will improve incentives for companies to innovate – especially SMEs. Beyond our
successful changes to the SME R&D Tax Credit, we will invest an additional £75 million to
iv
6. Innovation and Research Strategy for Growth
support small business innovation including additional funding for Smart, grants that
support SME research and development. We will implement a new innovation voucher
programme, enabling SMEs to engage with universities and wider external knowledge
base providers, and will invest more in the Small Business Research Initiative, helping
more SMEs to win government contracts for their innovative products and services.
Additionally we will increase our funding to support design driven innovation. We will also
encourage large company research and development by making the R&D Tax Credit
‘above the line’ from April 2013.
More widely, we will support innovation and research collaboration overseas, focussing on
hot spots and high growth economies, starting with China and India. In particular, we will
prioritise securing greater European finance to support R&D by UK businesses.
This strategy is based upon an understanding that Government can be an important driver
of innovation. We will support independent bodies, like the Technology Strategy Board, to
intervene when the market is unable to foster innovation alone in critical technologies or
sectors. More commonly, we will work with the grain of the market by getting rid of
unnecessary red tape, making public sector data more accessible and establishing a fund
to run inducement prizes in areas where innovation is needed.
The Coalition Government is putting innovation and research at the heart of its growth
agenda. Innovation is essential to competitiveness and higher living standards. Through
greater investment and increased collaboration, we will make sure that the UK has a
promising future.
VINCE CABLE DAVID WILLETTS
�
v
7. Innovation and Research Strategy
for Growth: Executive Summary
�
1. � The UK has the potential to be a world leader in innovation. The strength of UK
universities and the wider knowledge base is a national asset. Our knowledge base
is the most productive in the G8, with a depth and breadth of expertise across over
400 areas of distinctive research strength. The UK produces 14% of the most highly
cited papers and our Higher Education Institutions generate over £3 billion in external
income each year. The Government is committed to invest in maintaining and
strengthening the research base, and to continue to fund a balance of blue skies and
applied research projects.
2. � But the challenges we face in innovation are as big as those elsewhere. Some of
them are long-standing, such as ensuring we make the most of the UK’s inventions
and discoveries, while others are newer. Other countries are spending more on
research and working to develop clusters of knowledge and innovation hotspots. The
costs of cutting-edge research and the latest high-tech processes are greater than
ever before, and are often too large for any one company. There is more competition
for European funds. We have always needed to do better in technician-level skills,
but have recently slipped down the OECD league for higher-level skills too.
3. � To succeed in the global innovation economy, the UK must strengthen its ability to
accelerate the commercialisation of emerging technologies, and to capture the value
chains linked to these. The private sector is always going to be central to innovation.
But Government can play a key role in ensuring entrepreneurs, financiers and
innovators have the best possible environment in which to operate, through:
• � Funding blue skies research as well as new discoveries and inventions;
• � Improving the interface between Higher Education Institutions (HEIs) and
Business; and
• � Delivering a better environment for commercialising research.
1
8. Innovation and Research Strategy for Growth
4. � We have made a good start, including:
• � Maintaining the £4.6 billion ring-fenced science and research programme funding,
much of which goes on fundamental research; in addition to new funding for
science capital projects – including £158 million for e-infrastructure, the total
increase in capital funding since December 2010 is £495 million.
• � We will be branding the Technology and Innovation Centres as Catapult Centres;
a new elite national network to act as a bridge between academia and business
and to support the commercialisation of new technologies in sectors such as
high-value manufacturing, cell therapy and offshore renewable energy; and
• � Increasing the level of the Small Company R&D Tax Credit from 175% to 225%
by April 2012. The R&D Tax Credit is the largest programme of support for
business innovation in the UK, providing support of over £1 billion in 2009-10
through both the SME and large company schemes.
5. � However, the UK faces the twin challenges of reducing the deficit and promoting
growth. We have limited resources to invest, and must prioritise our investments
into emerging technologies on the basis of rigorous criteria, and an independent
assessment of UK capability to exploit their potential and succeed in global markets.
6. � We are also seeking to ensure that government policies stimulate, rather than
hinders, UK innovation through:
• � Greater use of public procurement, helping Government take the lead customer
role, increasing investment in the Small Business Research Initiative;
• � Increasing access to public data or to knowledge created as a result of publicly-
funded research; and
• � Accepting all the recommendations in the review of intellectual property by
Professor Ian Hargreaves.
7. � But the challenges from competing developed countries, like the US, and the
burgeoning BRIICS (Brazil, Russia, India, Indonesia, China, South Africa) economies
mean we need to go much further. This paper outlines a series of measures to make
it easier for individuals, businesses and the public sector to innovate alone or in
partnership.
8. � We recognise how difficult it can be for smaller businesses to secure funding for
new research and development projects. The Government has already removed the
inconsistent support that existed under the Regional Development Agencies and we
are now committing an additional £75 million over three years to support small
business innovation. As part of this package of support, we are relaunching the
popular Smart brand, which will replace the Grant for Research and
Development, and will increase the funding to the Technology Strategy Board
2
9. Innovation and Research Strategy for Growth
to run this programme. This will provide funding for proof of concept, market and
prototype development activities, enabling more small businesses to develop
innovative, technology-based products and services.
9. � We know that competition is important in driving the quality of research and
business innovation. However, there is overwhelming evidence to show that multi-
partner collaborations can add more than the sum of their parts. That’s why some
funding encourages and supports collaboration, both between researchers and with
business. Governments cannot create new clusters, but we can encourage new
collaboration and remove obstacles that inhibit clusters from growing. Research
Councils UK, working with UK HE funding bodies, and in discussion with
individual universities and consortia, will establish a principles-based
framework for the treatment and submission of multi-institutional funding
bids.
10. � We will continue to look for other ways to encourage more relationships between
universities and business. Sir Tim Wilson’s review of business:university links
will make recommendations on how to do this. We will implement a new
innovation voucher scheme aimed at SMEs which have not previously
engaged with universities and the wider knowledge base.
11. � Global challenges in areas like climate change, security and the demographic shift
are on an unprecedented scale. The way we respond to them will require greater
levels of ingenuity and innovation. Our goal is for the Government to play its full part
– in concert with business, academia and the public – to deliver an environment that
fosters the world’s best innovators and the world’s best innovation.
12. � One way to stimulate innovation is through prizes and competitions. A range of
examples of Innovation inducement prizes, like the Ansari X Prize space competition,
shows that these can be a useful mechanism for solving specific challenges. We
will work with NESTA to establish a prize centre to run, design and facilitate
new inducement prizes in areas not well covered by existing activity. We will
co-fund the first prize with £100,000. We will also contribute £250,000 a year
into a new fund to establish future prizes.
13. � Mass datasets have the potential to deepen our understanding of the biggest
challenges, for example, in healthcare. We have opened up much public data already,
but need to go much further in making this data accessible. We believe publicly-
funded research should be freely available. We have commissioned independent
groups of academics and publishers to review the availability of published
research, and to develop action plans for making this freely available. We will
also create an Open Data Institute, which will develop semantic web
technologies for using data more effectively, and will advise the public sector
3
10. Innovation and Research Strategy for Growth
and business as to how best to use these and manage their data so it can be
exploited for economic and social benefits.
14. � Innovation and research are now increasingly international endeavours. Most
innovations originate from multiple countries, drawing in components or
technologies developed in multiple locations with the high-growth economies playing
an increasingly important part. We will develop and support new forms of
international partnership and collaboration, with the Government taking an active role
in promoting UK expertise around the world. We will ensure that UK research and
innovative UK businesses are fully engaged in Horizon 2020. In the light of
agreements made during the state visit of the US President, we will hold an
Anglo-US Financing Innovation symposium in London at the time of the 2012
Olympics.
15. � The UK has to aspire to be a world leader in research, technology development and
innovation. Our future prosperity rests on our ability to compete in a global economy
that is increasingly driven by innovation. The UK has great existing strengths in our
knowledge base and ability to conduct fundamental and applied research across a
range of disciplines. We also have world-class businesses in technology-based
sectors, designers and creative industries. These are national assets that form the
foundation of our future competitiveness. However, if we are to realise our vision we
need to strengthen our innovative capability and encourage greater investment in
innovation. The Government is committed to doing this, through: supporting
research and innovation in business; providing incentives for companies to invest in
high-value business activities; creating a more open and integrated innovation
ecosystem; and removing barriers to innovation. We have already taken measures to
deliver these objectives: this Strategy sets out the next steps we will take to secure
our future.
4
11. 1 The Innovation and Research
Strategy for Growth
Innovating to Grow
Innovation is the development of new products, services and processes, which may
be based on cutting edge research. Improving the UK’s innovation performance is an
essential component of the Government’s growth plan.
A large body of evidence shows that innovative economies are more productive and
faster growing1. They deliver higher returns on investment and increased living
standards. They are better at responding to changing circumstances through
redeploying old activities and jobs. They are more able to find solutions to global
challenges such as reducing dependence on fossil fuels, helping people live longer
and healthier lives.
UK businesses have to invest more in innovation activities to grow. Innovative
businesses grow twice as fast, both in employment and sales, as businesses that fail
to innovate2.
Innovation will drive the competitiveness of our businesses in the global economy. In
technology-based sectors, research is a primary driver of innovation, and research can
also discover and exploit new technologies, sometimes giving rise to new industries.
In other sectors the rapid adoption of technologies and the development of intangible
assets are essential to innovate, sometimes transforming existing industries.
1.1 � This strategy sets out the Government’s approach to boosting business investment
in innovation and ensuring UK success in the global economy. Universities and
research, entrepreneurship and risk taking, greater connections between people and
organisations, and a more open environment will all be at the heart of our approach.
1 � The economic thinking underlying this policy paper is in the Economics Review ‘Innovation and Research Strategy
for Growth’, also published by BIS today. Unless indicated otherwise figures in this document are presented in this
Review.
2 � For instance in ‘The vital 6 per cent.’ (2009), NESTA. NESTA econometric analysis shows that firms that had
introduced a product innovation in 2002-04 experienced a 4.4 per cent average employment growth rate between
2004-07, in contrast to the 2 per cent average growth rate displayed by non-innovators. And the figures are 10 per
cent and 5.8 per cent respectively if we consider sales growth.
5
12. Innovation and Research Strategy for Growth
1.2 � We will invest in critical areas that only government can fund and we will support
innovation across the economy:
• � Fostering scientific and technological breakthroughs is a fundamental role of
government. Both “blue skies” and applied research lead to the industries of the
future, better health and quality of life. We will continue to invest in curiosity-
driven research in universities and the wider knowledge base. As well as being
worthwhile in its own right, this will help us to attract the best researchers,
enable our universities to build their capabilities, train future researchers and
those who will work in our knowledge intensive industries. We will prioritise our
investments in emerging technologies that have wide application, where the UK
has relevant scientific and commercial strengths and where global markets are
growing, helping create the enterprises of the future. We will also support
multidisciplinary programmes linked to global challenges, and invest to support
business R&D and those technology-based sectors where the UK has existing
strengths. (Chapter 2: Discovery and Development)
• � Developing emerging technologies is essential but insufficient. The growth of the
UK economy depends on the extent to which businesses in all industries and
services invest in adapting technologies and developing their own complementary
non-technical innovations. This increasingly encompasses investing in intangible
assets, from skilled human resources to new business models, design and
branding. We will nurture innovation in all its forms. (Chapter 3: Innovative
Businesses)
• � Strong connections between key actors in the innovation system are instrumental
to create and disseminate knowledge, and improve our success rate in building
high-growth businesses. How businesses access the UK’s research and
information infrastructure – its facilities and knowledge base – is paramount.
We will encourage stronger links through network initiatives between
entrepreneurs, researchers and experts in design, intellectual property,
measurement and standards. (Chapter 4: Knowledge and Innovation)
1.3 � We will establish an open environment where the most promising ideas are
rewarded:
• � Open innovation means harnessing new knowledge wherever it comes from. UK
businesses and research institutions already have strong partnerships with the
USA and the EU, which we will reinforce. But the geography of innovation is
changing. Fast growing economies like China and India offer new opportunities
for both business and scientific co-operation. (Chapter 5: Global Collaboration)
6
13. Innovation and Research Strategy for Growth
• � Innovation must occur in all parts of our society. We will make data and research
findings widely available online for anyone to remix and reuse, and use
inducement prizes and challenge-led innovation to solve tough problems. The
Government will also encourage UK innovation as a customer of new products
and through delivering public services. (Chapter 6: New Innovation Challenges)
UK Innovation and Research
1.4 � The UK possesses the ingredients for success. We have excellent universities and
research institutions and dynamic businesses:
• � Our science and research base is world-class and a crucial asset. UK universities
train a large number of graduates and postgraduates and host a very large
number of international doctoral students across a wide range of disciplines.
• � We have a strong base of research-active universities, with 4 of the top 20
universities in the world, and 32 universities in the top 2003.
• � Our research institutes include world-leading facilities which combine flexibility to
pursue innovative research with a unique environment for developing outstanding
students and early career researchers.
• � Our excellence in teaching and research is underpinned by institutions with a
global reputation, such as the British Standards Institution, the UK Accreditation
Service, the National Physical Laboratory, and the Intellectual Property Office.
• � Our R&D intensity in high tech industries such as pharmaceuticals, aerospace and
information and communication technologies, is comparable with industries in
key competitor nations. However, UK R&D is more concentrated in a relatively
small number of sectors by relatively few businesses. Greater business
investment in R&D is needed across all sectors of our economy.
• � Our businesses invest in broader innovation such as branding, training, design
and improvements in business process. These intangible investments are new
sources of growth, and our high-growth businesses are not just high-tech
companies but also logistics providers, facilities managers, professional services
firms and manufacturers.
Global Innovation and Research
1.5 � Other countries understand that innovation is fundamental to economic success.
Despite marked differences between national innovation systems, some countries
– like the USA (the world’s most innovative economy), Japan and Germany –
innovate more effectively than others. Scale confers advantage, yet much smaller
3 � Times Higher Education World University Rankings (2011-12).
7
14. Innovation and Research Strategy for Growth
countries – like Sweden – also perform strongly (see boxes: Global Innovation
Leaders).
1.6 � Fast growing economies like China, Brazil or India are rapidly raising their game.
China, for instance, is set to become the second largest recipient of foreign direct
investment in the world and is already the second largest investor in R&D after the
USA4. In the BRIICS countries (Brazil, the Russian Federation, India, Indonesia, China
South Africa) high-technology manufacturing trade now represents 30% of their total
manufacturing trade, compared to 25% for the OECD area. New scientific hubs have
been created over the last decade, for instance in Seoul, Shanghai and Sao Paulo.
Some universities in Asia, such as the Hong Kong University of Science and
Technology, are emerging as leading research institutions.
1.7 � Many factors influence the effectiveness of any innovation system: governance
regime; taxation and regulation of enterprise, and their access to finance; size of
manufacturing base; organisation of the university sector; levels and orientation of
government-funded research; and the role and weight of different public institutions.
Industrial and technological specialisations also differ between countries, because of
different historical circumstances.
1.8 � The most successful national systems, however, share common characteristics.
They exhibit an ability to generate long-term and risky investment at scale for new
ideas, both public and private. These new ideas are the result of relationships among
people producing, sharing, applying and developing various kinds of knowledge
through cohesive networks. These networks also allow them to engage with
international collaborators and adopt innovations that emerge elsewhere in the
world. Their Governments, delivery bodies and agencies take a leadership role. They
develop technological capabilities through funding research and R&D. They actively
support strong collaborations between actors and take investment decisions on
research and technological priorities, and institutional frameworks as well as
education, regulation and infrastructure provision.
1.9 � The UK is engaged in an increasingly competitive global market. Scientific research,
technology development, industrial production, financial capital flows, and skilled
people are more mobile than ever. Our ability to thrive in this environment depends
in large part on the effectiveness of our own innovation system; how we design it
and how we choose to invest in it.
4 4 All figures in this section are from OECD Science, Technology and Industry Scoreboard (2011).
8
15. Innovation and Research Strategy for Growth
1.10 The following chapters describe our plans to make sure that businesses in England,
Scotland, Wales and Northern Ireland benefit from operating in an innovative global
economy5.
Global Innovation Leaders
The US Innovation Ecosystem
The USA is widely acknowledged as the most innovative nation in the world. The size
of US markets provides an advantage to the US innovation system. It allows US
innovative businesses to grow large, delivering high returns from successful
marketing or technological innovation. But the US Government plays a major role,
perhaps greater than recognised, in shaping innovation.
The Cold War years saw significant investment by the Federal Government in
supporting Research & Development activities in industries and universities,
especially in defence-related technologies, life sciences and energy. It provided a
powerful impetus to the development and commercialisation of new civilian
technologies in commercial aerospace, semiconductors, computers, and computer
software. These then attracted increased private investment into the development of
civil technologies with wide commercial applications.
The Defence Advanced Research Projects Agency (DARPA), created in 1958, remains
instrumental in fostering these spillovers by developing technological initiatives,
providing funding but also skills and management support to businesses, and
providing a brokering function between university research, businesses and the public
sector. The budget of this Agency is about $3 billion per year and funds exclusively
challenge-led schemes in high-risk high-reward areas of life sciences, physical
sciences and engineering.
US federal research funding for academic and business institutions is distributed by
governmental departments and agencies, including the Department of Defence (DoD)
the Department of Energy (DoE), the National Science Foundation and the National
Institutes of Health (NIH). The NIH has an annual budget of $32 billion and is the
largest civil agency.
5 � Components of both innovation and research policy are devolved, but we will work closely with partner organisations
in the Devolved Administrations to raise awareness, build capacity and ensure coherence. We will:
• � help build the innovative capacity of businesses throughout the UK;
• increase take-up of the innovation advice and support services being funded and delivered through the various
bodies and agencies in Scotland, Wales and Northern Ireland; and
• ensure coherence between the initiatives and investments being carried out in each of the Devolved
Administrations with UK programmes and priorities, so as to maximise their reach and impact.
�
9
16. Innovation and Research Strategy for Growth
Over the last couple of decades, faced with more intense foreign competition, more
limited financial resources and the growth of regional US clusters, federal
policymakers launched more decentralised programmes spread across a number of
agencies. These programmes sought to strengthen civilian technological capabilities
by subsidising and promoting joint research, encouraging collaboration between US
universities and industry in technology development, and supporting collaboration
between US industry and the federal laboratories. In the late 1980s programmes such
as the National Center for Manufacturing Sciences (NCMS), the semiconductor
research consortium SEMATECH, the Advanced Technology Program (ATP) of the
Department of Commerce, and the National Science Foundation’s Engineering
Research Centers all represented a new technology policy and relied on expanded
funding from the private sector.
Public procurement is also a lever effectively used by the US Government. The Small
Business Innovation Research Programme (SBIR) require Government Departments
and agencies with large budgets to use 2.5% of their research procurement to
support small business initiatives. SBIR funding is about $2 billion annually with
additional contributions at local levels. For instance North Carolina matches all federal
SBIR funds dollar for dollar.
Other US initiatives in technology policy were to reduce antitrust restrictions on
collaboration in research and improved intellectual property protection.
Today’s US Innovation System has some strong characteristics. Integrated innovation
systems within US Government Departments (e.g. DoE, DoD and NIH) include
support for research and proof of concept work, as well as support for product
development and public sector organisations acting as a lead customer for innovative
products and services through programmes such as the SBIR.
Public funding to undertake long-term, challenge-led research and R&D activities with
universities and businesses. These programmes have played a significant role in the
development and commercialisation of major innovations, e.g. telecoms and the
internet. Increasingly the funding of these programmes is linked to international
collaborations.
10
17. Innovation and Research Strategy for Growth
An exceptionally strong public and university research base, supported through
federal agencies like the National Science Foundation and National Institute of Health,
provides a bridge to commercialisation and help to de-risk private investment, funding
activities at a later stage of the innovation cycle than UK Research Councils. The US
also provides significant incentives for universities and business to commercialise
innovations, through offering ownership of all IP arising from federally-funded
research, which has encouraged US institutions to invest in their technology transfer
and exploitation capability.
The existence of diverse and large companies that are investors in R&D and also in
wider forms of innovation, ranging from ICT companies such as IBM, Microsoft or
Cisco, to aerospace and defence companies such as Boeing, and Life Science
companies such as Pfizer, Amgen, and Johnson & Johnson. Large companies in non
technology-based sectors are also important customers for innovative products,
notably Amazon and Wal-Mart, whose investment in logistics and supply chain
management technologies in the 1990s had a significant impact on US retail
productivity growth.
A dynamic entrepreneurial culture which tolerates failure, linked to strong clusters e.g.
Silicon Valley, Boston, Austin and North Carolina helps to drive innovation. The
combination of the availability of venture capital, business angels, and other forms of
public and private investment alongside strong mentoring programmes, facilitate
business start-up and rapid growth to large scale in high-technology sectors. The
important role of new small businesses in commercialising technological advances
appears to be unique amongst major economies.
A successful government sponsored funding programme for small businesses (SBIC).
For every $1 an SBIC raises from a private investor, the Government provides $2 of
debt capital, subject to a cap of $150 million. This attracted $840 million of private
capital in 2010-11. Since its inception, the SBIC program has helped finance
thousands of small businesses, which have grown to a significant scale, including
Costco, Amgen, Staples, Apple, AOL, FedEx, Intel etc.
In 2009 the President announced a Strategy for American Innovation, a broad-based
economic development strategy that channelled stimulus funding.
11
18. Innovation and Research Strategy for Growth
The Japanese Innovation Ecosystem
Although the Japanese economy faces the major problems of an ageing population,
negative economic growth over recent years and a fragile environment, the Japanese
innovation system still remains one of the most effective in the world. It is based on
central government and the role of the Ministry of Economy, Trade and Industry
(METI), large conglomerates and social and educational innovations.
The industrial and economic miracle of Japan was carefully designed and directed.
In the 1960s and 1970s Japan was a big importer of technology through various
mechanisms of technology transfer while simultaneously developing the basis for
self-reliance and the ability to absorb technologies. Since the 1980s Japan has been at
the forefront of most generic technologies. This transformation has been done on the
basis of a national consensus in which central government played a leading role.
METI shapes the long-term economic development of Japan. Technology forecasting
and targeting is under its responsibility, which it performs in collaboration with the
Ministry of Education, Culture and Sports, Science and Technology (MEXT). METI
creates the ‘technology strategy maps’ through consultation with industry, academic
institutions and government departments.
Research, development and innovation are seen as strategic priorities by the
Japanese government as well as by industry. The capacity to mobilise very large
resources in pursuit of strategic priorities is a feature of the Japanese innovation
system. Research expenditure represents about 4% of GDP. METI supports
innovative investment through research and funding agencies such as the National
Institute of Advanced Industrial Science and Technology and the New Energy and
Industrial Technology Development Organisation. However large corporations provide
about 80% of the national research expenditure.
Japanese large corporations have close links with central government. The strategic
visions developed by METI are used as guiding maps for future industrial
developments by industry associations and large conglomerates such as Mitsubishi,
Honda, Mitsui and Sumimoto. They allow for large strategic investments with long-
term objectives. They also facilitate the access of the world markets through strong
marketing strategies and networking. In the 1980s most of their research was
conducted by in-house laboratories. More recently, they have been developing
research collaborations with universities and research institutes.
12
19. Innovation and Research Strategy for Growth
Flexibility within Japanese companies and the dedication to quality of product design
and development is also a feature of Japanese innovation. Thorough product design
and aims for customer satisfaction are the main factors behind the constant quality
improvements of the Japanese products. Companies often have the practice of
rotating engineers from the R&D departments to the shop floors and back again
which gives them additional customer knowledge.
Japan also has among the highest skilled workforce in the world. A high proportion of
Japanese complete a higher level of education and a significant proportion of them
study science and engineering. On-site training is considered by companies to be the
most important element in the formation of technical skills. In addition, companies
often have established formal training courses and skill formation centres. This is
favoured by an economic system where traditionally employment in a Japanese
company is for life.
In August 2011, METI released a 5-year science and technology plan. It identifies
innovative culture and funding for science and technology as a national priority. The
plan includes a target of R&D of 4% of GDP, with corporations contributing 3% and
Government 1% (about £190 billion).
The German Innovation Ecosystem
Germany built much of its economic success over the past decades through
maintaining high-value added engineering and heavy industries, which demonstrates
the strength of the German innovation system. It is the integration of high-tech into
medium and low-tech products that forms the basis of German innovation. The
German system has a decentralised structure with multiple actors, strong SME
networks, and national technology and infrastructure priorities.
Germany is committed to increasing R&D spend to 3% of GDP by 2015. Investment
in education and research remains a priority through the economic crisis. R&D spend
was 2.8% of GDP in 2009 – two-thirds of this provided by industry. Some federal
states (Lander) have their own innovation programmes which contribute to
competition, regional differentiation and cluster development, with over 3% of GDP
invested in R&D in Bavaria and Baden-Wuerttemberg. Germany’s Laender are
involved in joint policy co-ordination processes and co-fund research organisations and
university infrastructure.
13
20. Innovation and Research Strategy for Growth
Germany has a well-funded research landscape. Some 70 Max Planck institutes
specialise in basic research, while about 60 Fraunhofer institutes conduct applied
research, collaborating closely with industry. About 80 Leibniz institutes and 17
Helmholtz large science centres engage in basic, strategic and applied research. The
Federal and Lander Governments will increase base funding for Germany’s research
organisations by 5% per annum.
The High-Tech Strategy is Germany’s cross-departmental mechanism to promote
innovation. With a €15 billion budget in 2006-2009, it promoted a mix of sectors and
enabling technologies supporting national priorities and addressing global challenges:
climate/energy, health/nutrition, mobility, security and communication. The second
phase of the High-Tech Strategy launched in 2010 focuses on scenario-based
innovation strategies and roadmaps. It places even greater emphasis on knowledge
transfer, commercialisation, and strategic science-industry partnerships.
Industry plays an important role in defining priorities and in leveraging public-sector
funding. The High-Tech Strategy has created long-term public-private partnerships in
emerging technology areas. Industry is involved in roadmap development and priority
setting. Leading companies such as BASF, Bosch, Daimler, Deutsche Telekom,
Siemens and Deutsche Post DHL contribute to Germany’s High-Tech Startup Funds
launched in 2005 and 2011, providing over €500 million for start-ups. So far 250
start-ups have been supported, leveraging over €300 million in private-sector
follow-on finance.
Almost 80% of R&D is channelled into automotive, electrical engineering, chemicals
and machine tooling industries, but Germany increasingly invests in advanced sectors
like ICT, biotechnology and nanotechnology. The influential Mittelstand, family-owned
innovative SMEs, lies behind Germany’s leading position in export markets, from
machine tools to laser systems. Recognising this, the German government actively
promotes innovation in SMEs. The Central SME Innovation Programme (ZIM),
launched in 2008 with an annual budget of €300 million, funds research co-operation
between SMEs and between SMEs and research institutes. As part of Germany’s
economic stimulus package a further €900 million was provided in 2009-2010. The
programme successfully secured and created jobs during the crisis.
14
21. Innovation and Research Strategy for Growth
The Swedish Innovation Ecosystem
The Swedish economy, like other small economies, has a strong international
orientation and this is reflected in its innovation system. The high performance
of Sweden is also linked to the interplay between large multinational companies,
industrial policy, university research, and dynamic public sector organisations.
Around 4% of GDP is invested in R&D: 1% is government spending and 3% from
industry. The Swedish industrial system is characterised by a large knowledge-
intensive and export-oriented manufacturing sector dominated by a small number of
large multinational groups grown from traditionally strong domestic industries, such
as Ericsson, Volvo, SAAB, AstraZeneca, Electrolux, etc. With the growth of clean
technologies, digital and service sectors, and life sciences, SMEs are playing a
strategic role but concerns persist about their ability to grow.
Most government funding goes to universities. A few universities (Karolinska
Institutet, Lund, Uppsala, Goteborg, Chalmers and Stockholm) and the Swedish Royal
Technical Institute dominate Swedish research. In 2009-2010 the Government
released €250 million to 21 national Strategic Research Areas for the first time.
The Swedish innovation system is made up of many organisations under the national
innovation agency (VINNOVA) with a budget of around €200 million per annum.
For instance, the industrial research institutes’ main mission is to provide research
services to the business sector, the Government covering the costs of facilities and
skills development. Their work is demand-driven and they act as an interface between
academic research and product development in the business sector.
VINNOVA develops research and innovation strategies for specific sectors in close
dialogue with businesses and key actors in the respective sector. It produces
analytical work to try to understand the future needs for a specific industry, what
type of competence is available at the Swedish universities, what the international
competition is, and where growth areas are including information and communication
technologies (ICT), services and IT implementation, biotechnology, manufacturing and
materials. This type of approach aligning industrial and research needs will continue to
drive Government funding for both research and innovation in the next National
Research Bill in October 2012. VINNOVA is also moving towards challenge-led
innovation as an overriding goal e.g. more innovative public sector procurement,
maintaining its focus on four national priorities: sustainable cities; health wellbeing
and medical; competitive industry; and information society.
15
22. 2 Discovery and Development
�
The ability to develop, commercialise and adopt new technologies across the
economy will define successful countries in the 21st Century. To compete effectively,
the UK must harness its strengths in blue skies research, R&D, a favourable business
environment and its expertise in areas such as design and behavioural science.
However, the UK does not have either the capability or the resources to succeed in
every emerging technology. Whilst the Government remains strongly committed to
maintaining funding for curiosity-driven research, which delivers broad economic and
social benefits. However, it is also essential to prioritise investment in technologies
that emerge from the research base, into those that offer the greatest potential
returns. As innovation is increasingly driven by challenges such as climate change and
the ageing population, the Government will back challenge-led innovation in these
areas to drive interdisciplinary collaboration to develop new business models,
products and processes. Where technology-based sectors are an important element
of our economic base, or provide an important technical capability through enabling a
range of products and other sectors, we will invest to strengthen these.
The Economic Impact of Research
2.1 � Strong universities and the wider research base drive UK competitiveness in the
global economy, through underpinning technology-based sectors and enhancing our
health, quality of life and creative output. They train the skilled researchers and
technologists who work in knowledge-driven sectors. A vital element of this is the
support that the UK provides for fundamental, or “blue skies” curiosity-driven
research, which attracts leading researchers to work here, and allows the
combination of ideas from different research fields. This is an investment in the
future, delivering a significant return:
• � The UK research base is the most productive in the G8, generating more papers
and citations per pound spent than any other large country6;
6 � Elsevier International Comparative Performance of the UK Research Base 2011.
16
23. Innovation and Research Strategy for Growth
• � UK research is of top quality, accounting for 14% of the world’s highly-cited
articles, behind only the USA. The UK also has more articles per researcher, more
citations per researcher, and more usage per article than researchers in the USA,
China, Japan and Germany;
• � The UK is excellent in a wide range of disciplines, with over 400 areas of
research where the UK is distinctively strong7;
• � This research is valued by business and other users, with external income to
UK universities from knowledge exchange reaching over £3 billion in 2009-10;
and
• � The research base is also a driver of foreign direct investment, attracting multi-
national companies such as Boeing, Pfizer, Microsoft, Tata, Intel, GE Healthcare
and Huawei to the UK.
Universities working with business
A period of growing government funding for universities has also seen universities do
increasingly well at business interaction and attracting external income. Last year
universities secured over £3 billion from external sources.
3,500
3,000 External Income
2,500
2,000
Million
1,500
1,000 Contract research
Collaborative research
Courses
500 Consultancy
Regeneration
0Bi IP revenues
Facilities and
200102 200203 200304 200405 200506 200607 200708 200809 200910 equipment
Sources: HEBCI surveys, PACECCBR analysis
2.2 � The Government is investing in the research base as a national asset. The annual
£4.6 billion budget to support science and research projects has been protected.
When additional capital investment is included, over £20 billion will be invested in
the research base between 2011-15, to maintain and expand our world-leading
research capability and to help drive sustainable economic growth over the long-
term.
7 � International Comparative Performance of the UK Research Base (2011), Elsevier on behalf of BIS.
17
24. Innovation and Research Strategy for Growth
2.3 � High priority capital projects have been financed, including £495 million of extra
capital investment announced since the conclusion of the Spending Review in 2010.
The Government will also continue to invest in translational research at Public Sector
Research Establishments, such as the National Physical Laboratory, which support
businesses to develop innovative products and services. In addition, the established
system for funding research,will be maintained based on the principle of supporting
excellence with high potential impact, through competitive funding processes. The
Haldane Principle, of basing funding decisions on independent professional
expertise, remains the best means of protecting academic independence and
excellence.
2.4 � Economic and societal benefits flow from both fundamental, curiosity-driven
research and research applied to the challenges facing business and public services.
Therefore, we need to maintain a balance in the breadth of disciplines funded and
between fundamental and user-led research.
2.5 � Research Councils will continue to fund both responsive, curiosity-driven research
proposals, and research initiatives into specific areas. Around two thirds of research
funding is invested in responsive research. This funding will continue to be
complemented through the UK Higher Education funding bodies, which will provide
universities with flexible, quality related research funding, informed by institutions’
performance in the Research Assessment Exercise (RAE 2008). This will be replaced
by the Research Excellence Framework 2014, which will combine recognition of
research excellence with reward for the impact of past research. This dual support
system provides stability for universities to build their research capabilities, together
with an important competitive element which directs funding on the basis of the
excellence of the proposals.
18
25. Innovation and Research Strategy for Growth
Blackford Analysis
Eleven years ago, Professor Alan Heavens of Edinburgh University set out to
determine the age of stars in distant galaxies and devised a mathematical algorithm
that compresses huge datasets while keeping all the information needed to solve a
problem, a much faster way of making calculations than traditional techniques. “It
was pure scientific inquiry” he says, “We wanted to find a better way to solve a
particular problem. It was only when we had invented a technique that was fast and
accurate that I realised there could be a number of commercial applications outside
astronomy or cosmology, and which could have some societal benefit.”
Professor Heavens realised that the technology could be used to speed up analyses
of 3D brain imaging by MRI scanners. “The machine may take many images of cross-
sections of someone’s head, with each image having hundreds of thousands of
pixels. The clinician needs to align this information up very quickly with previous scans
to see what changes have happened within the brain. So you have a large dataset,
but only need a few numbers to identify how things have changed. That is where the
patented ‘MOPED’ technology we have devised can help.” A spin-out company
Blackford Analysis won the 2008 Research Councils UK (RCUK) Business Plan
Competition. It was also awarded a grant from Scottish Enterprise, and a follow-on
award from the Science and Technology Facilities Council, which funded the original
research. It continues to grow commercially, and is developing applications for the
defence and oil and gas sectors.
19
26. Innovation and Research Strategy for Growth
Challenge-Led Innovation and Research
2.6 � Innovation is increasingly driven by the challenges that all nations face in the 21st
Century. Current patterns of natural resource use are unsustainable and put
prosperity and growth at risk. Demographic change is affecting all developed
economies. By 2050, the proportion of the population aged over 65 will increase
from one in six to one in four. We need solutions to these emerging societal needs,
and to develop more sustainable patterns of living. Because of their pervasive and
interconnected nature, these challenges can only be resolved through
interdisciplinary collaboration, across technological and sectoral expertise, involving
both fundamental and applied research.
2.7 � These challenges will transform sectors such as automotive, healthcare, agri-food,
construction and digital systems, requiring the development of new business
models, technologies and manufacturing techniques. The Technology Strategy Board
and Research Councils undertake joint programmes or aligned activities in key
challenge areas, including the Cross-Research Council programmes and the
Innovation Platforms. Research Councils are partners in the Technology Strategy
Board’s Innovation Platforms, which link academia, government and business, to
identify barriers to meeting a challenge, scope routes to overcoming these and
develop innovative solutions. The Technology Strategy Board is engaged in the
Research Councils UK (RCUK) challenge programmes, which co-ordinate
multidisciplinary research.
20
27. Innovation and Research Strategy for Growth
Research Council and Technology Strategy Board Challenge-Led Programmes
Productive Sustainable Healthy
Economy World Society
Low Impact Buildings Innovation Platform Lifelong Health and Wellbeing crossResearch
multidisciplinary sustainable urban Council programme
environment programme Healthy ageing, and factors that influence longevity,
health and wellbeing
Energy Programme – RCUK programme –
secure affordable low carbon energy Assisted Living Innovation Platform
Products and services that support
Low Carbon Vehicles – Decarbonising independent living and quality of life
road transport
Stratified Medicine Innovation Platform –
Targeting treatments to improve outcomes
Detection and Identification of Infectious
High Value Manufacturing – Including TIC, Agents – Improved diagnostics
IKC and Collaborative R&D
Healthcare Technologies – accelerating the
Manufacturing the Future – including impact of new technologies for health
underpinning portfolio and large centres
Global Food Security crossResearch Council
programme Increased production of sustainable,
secure and affordable food
Global Uncertainties: Security for All in a Sustainable AgriFood Innovation Platform –
Changing World – crossResearch Council programme Increasing food productivity,
Global crime and security decreasing impact of agriculture
Digital Economy crossResearch Council programme – transformational ICT
Digital Services – Interaction of technologies and users interoperability and security
Living with Environmental Change –
RCUK, government and agencies working together
on adapting to environmental change
Technology Based Sectors
2.8 � The UK has the fourth highest concentration of the world’s top 1,400 international
companies for R&D expenditure. In 2010, UK businesses spent £16.1 billion on
non-defence R&D, a 3.7% increase in cash terms compared to 2009. Overall
employment in R&D increased by 4,000 staff in 2010. Business investment in R&D
has been maintained throughout the economic downturn, in contrast to previous
recessions, providing a foundation for future economic growth. Key technology
based sectors in the UK include:
• � Life Sciences: the UK has a strong pharmaceutical and biotechnology sector,
accounting for nearly a third of all business R&D investment. The UK is a world
leader in fields such as Stratified Medicine, or targeting treatments on populations
based on genetic type and cell therapy, which will enable the growth of new
tissue to treat damaged or partially functioning organs or systems within the
body. It could provide treatments or cures for diseases such as Parkinson’s,
diabetes, strokes and heart disease. The TSB will invest over £75 million through
the Stratified Medicine Innovation Platform, and the Medical Research Council
will invest £130 million over 4 years into research into stem cells and cell therapy;
21
28. Innovation and Research Strategy for Growth
• � High Value Manufacturing: building on strengths in the sectors such as
automotive, aerospace and electronics, the UK is a leader in the development of
high-value manufacturing technologies, the ability to manufacture customised
products using fabrication devices controlled by advanced digital technologies.
The UK is also a leader in pioneering and manufacturing space technologies,
including communications satellites. The Engineering and Physical Sciences
Research Council has a portfolio of research projects worth over £58 million, and
the Technology Strategy Board supports over £50 million of projects;
• � Nanotechnology: over 200 companies create wealth through the theoretical
development, design, the scaling up of new manufacturing technologies for
specific materials. The UK has strengths in the development of coatings,
composite materials and nanomaterials such as graphene, medical technologies,
and displays and sensors. The Research Councils currently fund a portfolio of
over £200 million in this area, with an additional £30 million of funding for applied
research delivered by the Technology Strategy Board; and
• � Digital technologies: the UK has strengths in systems and software
engineering, the development of advanced 3G mobile products and services,
interface design and intelligent systems and high performance computing, which
increases the number of operations per second undertaken by computers and
enables the modelling of complex systems and processes in sectors such as the
life sciences. The Engineering and Physical Sciences Research Council has a
research portfolio of over £32 million in networks and distributed systems. The
Technology Strategy Board has invested over £30 million in a portfolio of projects,
supporting the development of digital technologies, including through the IC
tomorrow online testing facility.
22
29. Innovation and Research Strategy for Growth
EP1001 is a unique, self powered, wheel slide protection system specifically developed in
the UK for rail freight wagons to reduce incidence of wheel slides and hence wheel flats,
reducing track damage and noise.
Image: courtesy of Knorr-Bremse.
UK Life Sciences Strategy
2.9 � The Government is committed to ensuring the UK strengthens its position as a
leader in the life sciences sector. The UK Life Sciences Strategy sets out how we
will make the UK the best place in the world in which to translate discovery into
clinical use for medical interventions. As part of this, we will invest £180 million over
the next 3 years in a Biomedical Catalyst Fund, to be managed by the Medical
Research Council and the Technology Strategy Board. This will provide seamless
support for new innovations from the research phase in universities through to
commercial development in SMEs, helping develop new products and technologies
able to attract private investment.
23
30. Innovation and Research Strategy for Growth
Representation of DNA.
Source: Technology Strategy Board.
Space Technologies
2.10 To further develop UK strengths, we will invest £21 million to enable the UK to
become the leading player in the next generation of remote sensing services, based
on a combination of innovative UK radar technology and small satellite platforms to
create a low-cost constellation of operational small radar satellites (NovaSAR)
offering new commercial services. This investment will leverage further industry
investment, and NovaSAR will meet UK security needs and provide substantial
opportunities for export earnings, making the UK a ‘first-mover’ into affordable space
radar and associated services.
UK Space Agency research formed the basis for Hylas, the UK’s first broadband
internet satellite.
Source: European Space Agency.
24
31. Innovation and Research Strategy for Growth
Creative Industries
2.11 Britain’s creative industries represent the fastest growing sector of the UK’s
economy with annual revenues in excess of £70 billion. Crossing many sectors (such
as music, publishing, advertising and the arts), the creative industries employ many
people. This is also an area in which the UK has a significant and distinctive
international reputation, exporting to global markets.
Image generated automatically through software (University of Dundee patent applied for)
created in the FABRIC collaborative R&D project, partnered by University of Dundee,
Liberty Art Fabrics, System Simulation and Victoria & Albert Museum. [Copyright
University of Dundee and Victoria & Albert Museum].
Source: Technology Strategy Board.
2.12 The creative industries bring together many of the key elements of this Strategy:
new technologies (especially in the digital arena), interdisciplinary innovation (for
example, between engineers and artists), the critical importance of design, the
interaction between cutting-edge research and business innovation, and the
challenge presented to traditional frameworks of IP, copyright and regulation.
2.13 The Arts and Humanities Research Council will continue to promote interactions
between research and business in this area, through establishing a cross-
organisational centre for the understanding of Copyright and New Business Models
25
32. Innovation and Research Strategy for Growth
in the Digital Age. The Research Councils and the Technology Strategy Board are
also investing in four Creative Economy Hubs for Knowledge Exchange, and Digital
Economy Hubs supporting collaboration between Research Councils.
Catapults
2.14 Technology-based sectors are characterised by a high level of R&D intensity, close
links between companies and the knowledge base, and in some sectors, long or
closely integrated supply and value chains, which use a range of technologies and
processes. Supporting technology based sectors requires an integrated approach
that bridges the gap between the research base and business, and provides
resources of capital, expertise or equipment.
The High Value Manufacturing Catapult Centre includes the Advanced Manufacturing
Research Centre (AMRC), University of Sheffield. This illustrates machining an engine
rotor on a Mori Seiki CNC mill-turn machine at the AMRC’s Rolls-Royce Factory of
the Future.
2.15 We are establishing an elite national network of technology and innovation
centres, operating under the brand name of Catapult centres. These will provide
comprehensive access to specialist capability and expertise, to transform innovative
ideas and technologies rapidly into valuable products, processes and systems. The
capability to use design to commercialise technology will be integrated within the
Catapults. The Technology Strategy Board will invest over £200 million in six centres,
with the network completed in 2013. Their role will be to:
26
33. Innovation and Research Strategy for Growth
• � create a critical mass for business innovation, in technology areas where there is
strong UK capability to exploit global markets worth billions of pounds each year;
• � strengthen and embed supply chains within the UK;
• � provide open access for business to equipment and technology expertise that
would otherwise be inaccessible;
• � conduct applied research collaboratively with business, and under contract;
• � act as the hubs of clusters and networks, facilitate open innovation through the
development of new collaborations between businesses and external partners;
• � support the training and development of applied engineering skills and facilitate
the movement of skilled individuals between the knowledge base and business;
• � encourage the diffusion of knowledge and techniques between different sectors;
and
• � help businesses access new funding streams, including through European
funding programmes, and attract inward investment through promoting UK
capabilities and the Catapult brand.
2.16 The first centre, the High Value Manufacturing Catapult, was opened for business in
October 2011, and Catapults in Cell Therapy and Offshore Renewable Energy, will be
launched in 2012. The technology areas for the final three Catapults will be
announced in early 2012, with all six centres being operational by 2013. In more
detail, the focus of the first three centres will be:
• � High Value Manufacturing Catapult: a consortium of seven centres based
across the UK, with expertise including, design and manufacturing technologies
for metals, composites and hybrids; for plastic electronics; for the process
industries; and automation, control and simulation/modelling technologies. This
supports key manufacturing sectors including aerospace, automotive, industrial
biotechnology, chemicals, food and drink and microelectronics. The Technology
Strategy Board will invest more than £140 million in this Catapult during the next
six years;
• � Cell Therapy Catapult: will be based in London and will focus on the
development and commercialisation of new treatments for diseases, as well as
the underpinning technologies for manufacturing, quality control, safety and
efficacy challenges for these new treatments. The Technology Strategy Board will
invest up to £50 million over five years; and
27
34. Innovation and Research Strategy for Growth
• � Offshore Renewable Energy Catapult: will focus on commercialising
technologies for offshore wind, wave and tidal power. It will aid the development
and transfer of knowledge from established engineering industries into areas
such as foundations, installation, connection, operations and maintenance but
also work with researchers and SMEs to evaluate and develop novel subsystems
and components
Emerging Technologies
2.17 As well as investing in areas of existing technology strength, we need to position
ourselves to exploit new technologies emerging from the knowledge base. As the
speed with which technologies are commercialised increases, the UK’s
competitiveness will depend on our ability to identify new opportunities at an early
stage and mobilise resources of skilled people and investment capital to exploit
them. Whilst the UK cannot develop all emerging technologies, we can and should
invest in those where we have the research and business capability to accelerate
their commercialisation, and build value chains in the UK.
2.18 General purpose technologies, which have wide application across business sectors,
are the key emerging technologies. These technologies require a broad capability to
commercialise, beyond research and technology development. UK strengths in
design, social and behavioural science can develop the products and business
models that exploit their potential.
2.19 Commercialising these technologies requires investment in facilities, research
programmes, testing procedures and the development of applications over the long
term. The public sector can play a key role in this, in the same way that it pioneered
developments in computing, microelectronics, mobile telephony, satellite
communications, radar, large commercial aircraft, modern pharmaceuticals, global
positioning systems, and many other technologies.
2.20 The UK does not have the capability or the resources to succeed in every emerging
technology. Therefore, it is essential to prioritise our investments into those
emerging technologies which offer the greatest potential return. A robust analytical
framework, drawing on expertise in business, the Technology Strategy Board, the
Research Councils, Public Sector Research Establishments, universities, and
infrastructural organisations has been used to evaluate technologies against key
criteria:
• � the potential size of the global market, and its rate of growth ( greater than £10
billion per annum);
• � the range of applications for the technology across a number of economic sectors
(over four);
28
35. Innovation and Research Strategy for Growth
• � the capability of the research base to develop these technologies (number of
published papers, active research projects);
• � number and strength of UK companies and their supply chains relative to
international competitors, and their ability to adopt and exploit the technologies;
and
• � our ability to capture and protect the value we create (patenting, embedding and
exploiting intellectual property (IP)).
2.21 Using this approach, four technology areas have been prioritised for investment. This
will offer UK businesses the opportunity to develop the industries of the future. The
Technology Strategy Board will focus on synthetic biology, energy efficient
computing and energy harvesting. Other emerging technologies will be supported
through a range of Technology Strategy Board and Research Council activities,
including investing in the commercialisation of graphene.
• � Synthetic Biology: is the design and engineering of novel biologically-based
parts, devices and systems, or the redesign of existing biological systems for
useful purposes. Estimates put the world market at around $100 billion by 2020.
The UK produced 14% of all global research papers between 2005 and 2010. The
potential applications include bacteria that feed on pollutants, new biofuels,
drought and disease resistant crops. The UK has leading companies in these
sectors.
• � Energy-Efficient Computing: is the design of hardware and software to reduce
energy consumption through reducing the power needed or operating time. The
global market could be $50 billion in 2020. The UK produces around 7% of global
research papers, and 1.6% of global patents. Almost a third of European chip
design companies are based in the UK and there are strong hardware and
software sectors.
• � Energy Harvesting: is the use of low levels of energy obtained from the
environment, from temperature, movement or pressure, enabling electronic
devices to power themselves independently. Markets include wireless sensors,
building controls and consumer devices. The global market for energy harvesting
could grow to $4.4 billion by 2020. The UK has capability in the sensors and
instrumentation, electronics and design to exploit these technologies.
• � Graphene: the thinnest possible material, yet impermeable to gases or liquids. It
is the strongest material ever measured; around 200 times stronger then
structural steel and a record conductor of heat and electricity. Potential
applications include ultrafast transistors, to high-performance materials that are
used to build aircraft; and it could potentially revolutionise the semi-conductor
industry by replacing silicon.
29
36. Innovation and Research Strategy for Growth
Graphene Global Research and Technology Hub
2.22 The UK is the global leader in graphene, discovered in Manchester in 2001 by 2010
Nobel Physics Laureates Andre Geim and Konstantin Novoselov. We are investing
£50 million in the development of a Graphene Global Research and Technology
Hub, which will accelerate the
development of commercial
applications for graphene. The
Hub will connect UK researchers
and businesses, and provide
specialist equipment and
expertise. The Hub will also
develop a graphene strategy to
embed a significant proportion of
the value chain in the UK and
build sustainable competitive
advantage. It will work with
universities and further
education providers to ensure
the UK develops the skills needed Representation of Graphene under strain.
to support a growing graphene- Picture: University of Manchester.
based sector.
Summary of Actions
�
Since May 2010, the Government has:
�
• � protected the science and research budget and committed to investing over
£20 billion by 2015
• � allocated an additional £495 million of capital investment since the
Spending Review in 2010
• � committed to establishing an elite national network of Catapults, investing
over £200 million between 2011-15
To take this further, we are now:
• � investing £50 million in the development of a Graphene Global Research
and Technology Hub.
• � investing £21 million to enable the UK to become the world leader in the
next generation of satellite-based sensing services.
• � Investing £180 million in an Integrated Translation Programme to support
the commercialisation of innovations in the life sciences sector.
30
37. 3 Innovative Businesses
�
Businesses are key innovators in the UK. Through innovation, they drive productivity
improvements and economic growth. Businesses of all sizes and in all sectors
innovate. Technology-based businesses and sectors are important, and perform as
well as their international competitors. However, future economic growth also
depends on businesses across the economy adopting technologies and investing in
their own complementary forms of innovation. Design, managerial and organisational
competencies, human resources and intellectual property are increasingly important
forms of innovation.
Businesses also benefit from partnering with universities. They are more likely to
improve the quality of their goods and services, improve their labour productivity,
increase their range of goods and services and more than twice as likely to open new
markets or increase their market share compared to those businesses that don’t
interact with HEIs.8
To achieve strong, balanced and sustainable growth we need to find new ways of
stimulating investment in innovation across the economy. It is paramount that in a
time of scarce resources, Government helps innovative businesses to access the
finance and support they need to generate wealth and create new jobs.
�
Investing in Innovation
3.1 � Research from NESTA shows that about 6% of innovative, high-growth companies
created 40% of new private sector jobs9. The Government is committed to enabling
such businesses to access more diverse sources of finance, including debt and
equity, as well as providing support through the tax system.
Research and Development (R&D) Tax Credits
3.2 � The Government recognises the value of R&D Tax Credits to innovative companies.
R&D Tax Credits offer relief from Corporation Tax and provide the single biggest
government incentive for business R&D. They incentivise companies in all sectors,
8 Lambert Review of Business-University Collaboration (2003), HMT
9 ‘The vital 6 per cent’ (2009), NESTA.
31
38. Innovation and Research Strategy for Growth
from new innovative start-ups through to large multinational companies, to
undertake more R&D. In the financial year ending 31 March 2010, company claims
totalled over £1 billion, enabling over £11 billion of R&D investment by business.
3.3 � In the March 2011 Budget, the Government made significant changes to the SME
R&D Tax Credit (for companies with fewer than 500 employees). We raised the rate
of tax relief to 200% of qualifying expenditure from 1 April 2011 and will increase it
to 225% from 1 April 2012. This makes the UK SME R&D Tax Credit amongst the
most competitive regimes in the world. We also recognise the importance to small
companies of a simplified tax regime and we have made it easier for small
companies to claim the R&D Tax Credit.
3.4 � The Government announced in its Autumn Statement 2011 its intention to introduce
an “above the line” Research and Development Tax Credit and will consult on the
details at Budget 2012. The Credit will be effective from April 2013 and will provide
greater visibility for the tax incentive and greater certainty for large company
investors. The Government will use the consultation process to ensure that SMEs’
R&D incentives are not reduced as a result of the introduction of “above the line”10.
3.5 � To increase usage of the R&D Tax Credit we will:
• � Work with HM Treasury, HM Revenue and Customs and the Devolved
Administrations to increase awareness and take-up of the SME scheme;
• � Work with the Design sector to raise awareness of how the Scheme can help
support design-led research and development; and
• � Further simplify the scheme piloting a pre-approval mechanism for smaller
companies.
Support for Venture Capital
3.6 � Investment and fundraising in the UK and Europe has suffered as a result of the
crisis in financial markets. The US and European venture capital markets are volatile
and subject to large uncertainties. The Government is committed to making the UK
the best place in Europe to grow and finance a business. We have:
• � Increased the amount government committed to the Enterprise Capital Funds
programme by £200 million over the Spending Review period;
• � Backed business angels with the £50 million Co-Investment Fund funded through
the Regional Growth Fund;
10 The current R&D Tax Credit reduces the profits that R&D companies have to pay corporation tax on. An “above the
line” tax credit is calculated as a percentage of the company’s R&D spend. It is first offset against the company’s
corporation tax bill and if there is any unused credit (e.g. if the company is loss-making) the credit is payable to the
company. The fact that the company gets the benefit of the credit, whatever its tax status, means that it can be
accounted for as a reduction in R&D spending – ‘above the tax line’ in the accounts.
32
39. Innovation and Research Strategy for Growth
• � Reformed investor tax reliefs, including increasing the rate of income tax relief for
the Enterprise Investment Scheme to 30% and doubling the investor limits to
£1 million per annum from April 2012. Work is ongoing to secure State Aid
approval for remaining reforms;
• � Continued to support the UK Innovation Investment Fund, one of Europe’s largest
technology funds that is investing in life sciences, digital, advanced manufacturing
and clean tech companies;
• � Spurred the five main banks to set up a Business Growth Fund worth £2.5 billion.
It provides £2 million – £10 million to companies with high-growth trajectories.
• � Encourage investment into new early stage companies through the Seed
Enterprise Investment Scheme (SEIS) by providing a higher rate of income tax
relief of 50% for individuals who invest in qualifying seed companies. To kick start
the scheme the Government is offering a Capital Gains Tax exemption on any
gains realised in 2012-13 that are invested through SEIS in the same year.
3.7 � During President Obama’s state visit to the UK in May 2011, the President and the
Prime Minister announced their intention to strengthen links between our respective
venture capital sectors. We will hold a major Anglo-US Financing Innovation
symposium in London 2012, linked to the Olympic Games, with the British and US
Venture Capital Associations. We will bring together UK and US investors and fund
managers to enable strategic partnerships to be developed and to showcase and
secure investment for some of the UK’s leading innovative companies.
Technology Strategy Board
3.8 � The Coalition Government has made the Technology Strategy Board the prime
channel for supporting business-led technology innovation. The Government
recognises the business leadership of the Technology Strategy Board and simplifies
what was previously a complex landscape through which businesses sought and
received support. The Technology Strategy Board as the UK innovation agency
targets support more effectively towards those areas of investment that will have
the greatest impact on growth, and leverage additional private sector investment.
3.9 � The Technology Strategy Board develops technology strategies and makes choices
on the allocation of funding to particular sectors markets and challenges, as well as
to emerging technologies, by taking a strategic view of where UK capability exists
and where future opportunities may emerge. Its ability to operate effectively relies
on its access to significant technological and business expertise. It creates
incentives for business R&D which are provided through several methods, including:
33
40. Innovation and Research Strategy for Growth
• � Collaborative R&D: provides funding to enable business and research
communities to work together on R&D projects from which successful new
products, processes and services can emerge. Over £150 million will be invested
in 2011-12 to enable research such as an £800,000 grant to develop Aquamarine
Power’s Oyster®, a hydro-electric wave energy converter;
• � Knowledge Transfer Networks (KTNs): providing over £15 million in 2011-12 for
15 KTNs, which have over 38,000 members through the Connect web platform
makes the necessary connections between the various players, helping industry
access knowledge and information to support growth;
• � Knowledge Transfer Partnerships (KTPs): over £30 million in 2011-12 to
stimulate innovation by facilitating the transfer of knowledge and the spread of
technical and business skills through 1000 live projects per annum undertaken by
high calibre, recently qualified graduates. This year’s award for best KTP went to a
partnership between Queen’s University Belfast and Cherry Pipes of Dungannon;
• � Small Business Research Initiative: investing over £5 million in 2011-12 to
enable innovative companies to solve challenges for Government departments.
For example a recent competition with the Department of Health provided
solutions that enabled diagnosis of asthma in babies, or others, who cannot blow
into a conventional spirometer; and
• � Grant for Research and Development: approximately £20 million of funding in
2011-12 to address the finance market failure for high-risk and potentially high-
reward technologically innovative projects carried out by SMEs. The funding
supports Proof of Concept and Proof of Market analyses, and the development of
prototype products. Previous beneficiaries include Optos, based in Dunfermline,
an innovative retinal imaging company with revenues worth over £100 million in
2010.
Increasing SME Innovation Support
3.10 As part of an SME Innovation Package announced in the 2011 Autumn Statement,
the Government will invest an additional £75 million over three years through the
Technology Strategy Board to support innovative small businesses. We are also
rebranding Grant for R&D back to its original and popular brand name of
Smart. Smart was introduced in 1988 and was a long-running programme that
corrected the recognised market failure around private finance for high-risk and
potentially high-reward technologically innovative projects carried out by SMEs. This
new funding package for Smart enables the Technology Strategy Board to expand
support for innovative technology SMEs across the whole of the UK.
34
41. Innovation and Research Strategy for Growth
Design for Innovation
�
3.11 Design can be transformative for companies, through leading or supporting product
and process innovation, for managing the innovation process itself, for the
commercialisation of science, and the delivery of public services.
3.12 Research has consistently shown a link between the use of design and improved
business performance across key measures including turnover, profit and market
share11. Over a ten year period, the Design Council tracked publicly quoted firms that
use design intensively and compared them to less intensive design users. Between
1995 and 2004, the share prices of design-conscious companies outperformed other
firms by 200%. The Design Council’s 2007 Value of Design Survey of over 500
businesses found that for every £100 a design-alert business spends on design,
turnover increases by £225.
3.13 Most successful high-tech businesses are design and technology-driven. However,
there are parts of the economy where design awareness remains low, including
amongst SMEs, scientists seeking to commercialise new ideas and the public sector.
This lack of awareness and use of design is compounded by the fact that the UK
design sector, while boasting a worldwide reputation for creativity and innovation, is
complex to navigate. We continue to support the Design Council’s activities to
connect both the private and public sectors to design. The Design Council will work
with the Arts and Humanities Research Council and other partners on a design
research programme to measure the impact of design on economic performance
and social value creation.
HyperGlance draws on computer games technology to model complete IT applications
and infrastructures in 3D, so customers can make decisions based on understanding the
business impact of problems and vulnerabilities.
Source: Technology Strategy Board
11 Evaluation of Designing Demand – Eden Partners, 2011.
35
42. Innovation and Research Strategy for Growth
Design Support for Innovative Business
3.14 The Design Council is delivering Designing Demand, a BIS-funded mentoring
programme to build greater design capability and understanding among SMEs. The
resulting design projects often deliver new or improved products, services, systems
and/or brands that improve business growth potential and success. The average
return on investment for every £1 invested in design by business is over £25 and it is
estimated that over £12 Gross Value Added (GVA) has been returned for every £1 of
public funding invested in Designing Demand12. Building on this success we will
increase our funding of Designing Demand to £1.3 million per annum.
Gripple
In 2007 when the Sheffield-based company took part in Designing Demand, it had an
£18 million turnover from manufacturing wire joining and tensioning devices. Today,
new products are being brought to market faster and productivity has been improved
as a result of the design support it received. Gripple now sell over 30 million products
every year to over 80 countries, designed to suit a whole range of applications across
the agricultural and construction markets. Turnover is growing and increased to
£25 million in 2009. Over 20% of the firm’s turnover is generated from new products
launched in the last three years.
”The Designing Demand framework has really raised the profile and importance of
innovation at all levels within the business,” Gripple’s Special Projects Manager
Gordon Macrae
3.15 Business Coaching for Growth is a new programme to help up to 10,000 SMEs a
year overcome the barriers they face in achieving high-growth potential. Specialist
coaches will work with senior management teams to develop business strategies,
raise external finance, and develop the skills they need to implement their strategies.
The programme will include help to commercially exploit innovation, build a culture
of innovation within the business, and identify and protect intellectual property and
copyright. There will be strong links between Business Coaching for Growth, and the
support provided by the IPO, Technology Strategy Board, The Design Council and
Catapult Centres.
Maximising Investment
3.16 In the current economic climate, it is vital that we use public funding to leverage
investment from other sources. This is particularly true in those areas of the UK that
do not receive high levels of funding from national funding programmes for research
and innovation, or significant levels of business investment. We are committed to
12 ‘The Value of Design Factfinder Report’ (2007), The Design Council.
36